Beyond Silicon: HP Outlines Comprehensive Strategy for Molecular-scale Electronics.PALO ALTO Palo Alto, city, California Palo Alto (păl`ō ăl`tō), city (1990 pop. 55,900), Santa Clara co., W Calif.; inc. 1894. Although primarily residential, Palo Alto has aerospace, electronics, and advanced research industries. , Calif. -- HP Research Featured in Key Technical Publication; International Nanotechnology Symposium Scheduled at HP Labs For the first time, HP (NYSE NYSE See: New York Stock Exchange :HPQ HPQ Hewlett-Packard Corporation (NYSE) HPQ High Priority Queue ) (Nasdaq:HPQ) has laid out in one place a comprehensive, practical strategy for a computing future beyond traditional silicon technology. The vision -- and the challenges -- are captured in nearly two dozen papers published today in a special nanotechnology edition of Applied Physics A, the premier European journal European Journal is a weekly Deutsche Welle (DW) news program produced in English. It is broadcast from Brussels, Belgium and primarily covers political and economic developments across the European Union and the rest of Europe, as well as issues of particular concern to of applied physics. "We believe we have a practical, comprehensive strategy for moving computing beyond silicon to the world of molecular-scale electronics," said Stan Williams Stan Williams can refer to different people:
QSR QoS (Quality of Service) Satisfaction Rate QSR Quality System Regulations QSR Quality Status Report QSR Quality System Review QSR Quarterly Status Report QSR Quality System Requirement ), HP Labs. "We have a three-pronged approach: fundamental scientific research into the quantum effects that dominate the nanometer scale, a new architecture that can tolerate defects in molecular-sized circuit components and cost-effective methods of fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. ." Williams said that HP Labs has discussed these ideas separately before, but the special edition of Applied Physics A -- which includes papers dealing with each of the three areas -- provides an opportunity for a detailed look at HP's overall approach. In conjunction with the publication, HP is pursuing the multi-tiered theme in an invitation-only international nanotechnology symposium at HP Labs on March 25. Michael Stuke, editor-in-chief, Applied Physics A, will join 16 prominent scientists from universities, national labs, scientific institutes and companies around the world at the event. "Our special issue presents pioneering achievements by world-class experts in areas ranging from basic nanoscience and ultraprecise nanotechnology to breakthrough applications for nanoelectronics, many of them backed by important new patents," said Stuke. "The combination of this publication and the HP-hosted symposium offers researchers a unique opportunity to gain a comprehensive view of the challenges facing the future of nanotechnology." There is a great deal of discussion concerning the future of Moore's Law "The number of transistors and resistors on a chip doubles every 18 months." By Intel co-founder Gordon Moore regarding the pace of semiconductor technology. He made this famous comment in 1965 when there were approximately 60 devices on a chip. -- the rule formulated by Intel founder Gordon Moore Gordon Earle Moore (b. January 3, 1929 in San Francisco, California) is the co-founder and Chairman Emeritus of Intel Corporation and the author of Moore's Law (published in an article 19 April 1965 in Electronics Magazine). more than 40 years ago that computing power essentially doubles every two years -- and when the industry will hit economic or fundamental physical limitations. At that point, a new type of technology will be required to continue improving basic computing capability well into this century. "Computers of tomorrow could be quite different from what they are today," said Williams. "When you can make a computing appliance so tiny that it could fit across the width of a hair, you could enable many, many different things to become 'smart.' Computing could become as ubiquitous as electricity -- it's just there, making things work. The possibilities are limited only by human imagination." The HP vision is based on its patented crossbar architecture -- one set of parallel nanowires running approximately perpendicular to another set, sandwiching a thin layer of an electrically switchable material. Every intersection of wires can then form an electrical switch, which could be programmed to configure the crossbar to perform various functions, such as store a bit or perform a logic operation. The crossbar architecture is potentially easier and less expensive to manufacture than conventional silicon technology, because it doesn't require the same level of mechanical precision and is well-suited to tolerate the inevitable defects that are bound to occur in the fabrication process at such tiny dimensions. One of the papers in the publication describes a new approach to defect tolerance that is particularly suited to the crossbar structure. Williams said QSR is also looking at fundamental science underlying computing at the molecular scale. "At the nano (1) Billionth (10 to the -9th power). See space/time. (2) Refers to the nanotech industry in general. See nanotechnology. (3) See iPod nano. level, quantum mechanics quantum mechanics: see quantum theory. quantum mechanics Branch of mathematical physics that deals with atomic and subatomic systems. It is concerned with phenomena that are so small-scale that they cannot be described in classical terms, and it is takes over from classical physics -- electrons behave more like waves than particles. We are studying how we can use quantum properties to enable new functions in a circuit," he said. Theoretical physicists The following is a partial list of theoretical physicists: Ancient Times
Finally, the HP group is examining how future devices could be made -- practically and economically -- at the nanoscale At nanometer size. Any device only a few nanometers in size is nanoscale. See nanotechnology and nanometer. . "There's a great tradition of technology transfer at HP," said Williams. "We work only on those things that we believe could ultimately be important to HP's bottom line in the future." To that end, QSR researchers are examining the properties of various metals for wires and materials for switches that could be used in fabrication at the nano level. They are also proposing ways in which the tiny devices could be linked to conventional microelectronics. The researchers are also looking at a variety of fabrication processes, from nano-imprint lithography lithography (lĭthŏg`rəfē), type of planographic or surface printing. It is distinguished from letterpress (relief) printing and from intaglio printing (in which the design is cut or etched into the plate). -- a kind of production process akin to a traditional printing press -- to chemical self-assembly by growing silicon nanowires between electrodes. One paper in the publication describes how silicon nanowires are especially useful as sensors to detect specific DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. molecules. "Clearly, there's a lot of work to do before nanoscale devices become reality, and no one organization will ever be able to do it alone," said Williams. "That's why we're publishing in the scientific literature and holding our own symposium. All of us in the scientific and technical community have much to learn from one another." Applied Physics, founded in 1973 by H.K.V. Lotsch, is an international journal for the rapid publication of experimental and theoretical investigations in applied research. Applied Physics A publishes regular articles, rapid communications, and invited papers about new results, focusing on the condensed con·dense v. con·densed, con·dens·ing, con·dens·es v.tr. 1. To reduce the volume or compass of. 2. To make more concise; abridge or shorten. 3. Physics a. phase including nanostructured materials and their applications. In addition to those about surfaces and thin films, papers on advanced processing and characterization techniques are of interest for the readers of this journal. The high print quality ensures excellent reproduction of photographs obtained in fields such as scanning probe microscopy. Applied Physics is published by Springer, the world's second-largest publishing company in the science, technology and medicine (STM (Scanning Tunneling Microscope) A microscope that can image down to the atomic level. An STM uses a piezoelectric tube with a tiny sharp tip at the end that is moved within nanometers of the object being sampled. ) sector. The international publishing house is part of Springer Science+Business Media, one of the world's leading suppliers of scientific and specialist literature. About HP HP is a technology solutions provider to consumers, businesses and institutions globally. The company's offerings span IT infrastructure, global services, business and home computing, and imaging and printing. For the four fiscal quarters ended Jan. 31, 2005, HP revenue totaled $81.8 billion. More information about HP is available at www.hp.com. This news release contains forward-looking statements forward-looking statement A projected financial statement based on management expectations. A forward-looking statement involves risks with regard to the accuracy of assumptions underlying the projections. that involve risks and uncertainties, as well as assumptions that, if they ever materialize or prove incorrect, could cause the results of HP and its consolidated subsidiaries to differ materially from those expressed or implied by such forward-looking statements and assumptions. All statements other than statements of historical fact are statements that could be deemed forward-looking statements, including the expected development, performance or rankings of products or services; statements of expectation or belief; and any statement of assumptions underlying any of the foregoing. Risks, uncertainties and assumptions include the development, performance and market acceptance of products and services and other risks that are described from time to time in HP's Securities and Exchange Commission reports, including but not limited to HP's Annual Report on Form 10-K Form 10-K A report required by the SEC from exchange-listed companies that provides for annual disclosure of certain financial information. Form 10-K See 10-K. for the fiscal year ended Oct. 31, 2004. HP assumes no obligation and does not intend to update these forward-looking statements. (C) 2005 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. HP shall not be liable for technical or editorial errors or omissions contained herein. |
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